Differential signaling of insulin and IGF-1 receptors to glycogen synthesis in murine hepatocytes.

We have used SV40-transformed hepatocytes from insulin receptor-deficient mice (-/-) and normal mice (WT) to investigate the different abilities of insulin and IGF-1 receptors to stimulate glycogen synthesis. We report that insulin receptors are more potent than IGF-1 receptors in stimulating glycogen synthesis. Both receptors stimulate glycogen synthesis in a PI 3-kinase-dependent manner, but only the effect of insulin receptors is partially rapamycin-dependent. Insulin and IGF-1 receptors activate Akt to a similar extent, whereas GSK-3 inactivation in response to IGF-1 is considerably lower in both -/- and WT cells, compared to the effect of insulin in WT cells. The findings indicate that (i) the potency of insulin and IGF-1 receptors in stimulating glycogen synthesis correlates with their ability to inactivate GSK-3, (ii) the extent of GSK-3 inactivation does not correlate with the extent of Akt activation mediated by insulin or IGF-1 receptors, indicating that the effect of insulin on GSK-3 requires additional kinases, and (iii) the pathways required for insulin stimulation of glycogen synthesis in mouse hepatocytes are PI 3-kinase-dependent and rapamycin-sensitive.